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Astrocytes as Metabolic Sensors Orchestrating Energy‐Driven Brain Vulnerability in Alzheimer's Disease

Leyre Sánchez de Muniain, Paula Escalada, Marı́a J. Ramı́rez, Maite Solas

2025Journal of Neurochemistry7 citationsDOIOpen Access PDF

Abstract

Alzheimer's disease (AD), the leading neurodegenerative disorder linked to aging, emerges within a paradoxical metabolic landscape. Despite rising cellular energy demands due to accumulated damage and stress, overall energy expenditure remains stable or declines with age. The brain, acting as the central regulator, responds to hypermetabolic signals from aged tissues by activating energy-conserving mechanisms. In this scenario, astrocytes, strategically located between blood vessels and neurons, play a pivotal role as energy sensors, adapting to systemic stress and modulating brain metabolism. This review explores how astrocytes undergo metabolic reprogramming in the early stages, potentially becoming maladaptive over time, fueling neuroinflammation, oxidative stress, and accelerating AD. By understanding astrocyte energetics, we uncover new avenues for biomarkers and therapies that could transform AD treatment.

Topics & Concepts

NeuroscienceDiseaseAstrocyteReprogrammingBiologyOxidative stressEnergy metabolismVulnerability (computing)Energy expenditureCentral nervous systemMedicineNeurodegenerationHuman brainNeurogliaOxidative damageNeuromelaninNeuroinflammation and Neurodegeneration MechanismsTryptophan and brain disordersAlzheimer's disease research and treatments